Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
roughly 300 users from across campus and operates more than a dozen department-owned imaging systems. A designated Nikon Center of Excellence, the facility houses cutting-edge microscopes, including a
-
software engineers, as well as collaborating closely with research groups in the institute that work to develop new image analysis methods. Contributing to the development of open-source tools in
-
field (e.g., biology, chemistry, physics) or a comparable qualification (e.g., pharmacy, food technology) Experience in a laboratory setting, ideally in bioanalytics, imaging, or immunology Practical
-
at St. Jude by developing and applying innovative AI and computer vision approaches for image analysis and quantification. We are looking for an individual motivated to make a meaningful impact through
-
Brain-Computer Interfaces Biomaterials and Biomanufacturing Organoids and Organ-on-a-Chip Technology Medical Imaging Medical Instruments and Robotics Multi-Omics, Bioinformatics, and AI for health
-
with cryo-EM/ET data processing, tomographic reconstruction, or related inverse problems in imaging. Familiarity with molecular dynamics simulations (e.g., OpenMM, LAMMPS) and/or synthetic data
-
creating and deploying advanced pipelines for image analysis. Your mission As Research Software Engineer (RSE), you will be responsible for developing, optimizing, automating and maintaining advanced
-
Cleveland Clinic’s Department of Biomedical Engineering (BME) in collaboration with the Department of Orthopaedic Surgery, invites applications for a faculty position to lead a cutting-edge research
-
. You will set the agenda in optical imaging for health technology and contribute to flagship initiatives that improve patient outcomes through prediction, prevention, early diagnosis, and treatment
-
Cardioembolic Stroke Risk Stratification using AI Accelerated Patient-Specific Blood Flow Simulation
the left atrial appendage. Second, CFD simulates high-resolution hemodynamics but requires patient-specific geometry, wall mechanics, and boundary conditions, as well as demanding advanced imaging and